M Delbos scite author profile

M Delbos

5Publications

93Citation Statements Received

22Citation Statements Given

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Affiliations

University of Bordeaux, Institut de Radioprotection et de Sûreté Nucléaire, French National Centre for Scientific Research

Publications

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PCC-ring Induction in Human Lymphocytes Exposed to Gamma and Neutron Irradiation

Lamadrid

García

Delbos

et al. 2007

JRR

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In case of an accidental overexposure to ionizing radiation where the dose received by the victim is over 5 Gy, the conventional biological indicator of dose, the dicentric assay, does not provide an accurate enough dose measurement. A more appropriate technique is to measure ring chromosomes in stimulated lymphocytes. Dose-effect relationships were obtained by plotting the frequencies of Premature Chromosome Condensation (PCC)-rings in PCC lymphocytes obtained by chemical induction with Calyculin A in vitro, irradiated with doses between 5 to 25 Gy. Cells were exposed either to neutron or to gamma rays and the corresponding dose effect curves are presented in this paper for the first time in literature. For the elaboration of these curves, 9 675 PCC cells in G1 G2 and M/A stages were analysed. The results were fitted to a lineal model in gamma irradiation up to 25 Gy. For neutron irradiation the data was fitted to a lineal model up to 10 Gy, and then dose saturation was observed. In conclusion, with this technique it is possible to set up dose effect curves up to 25 or 10 Gy according to the gamma or neutron radiation.

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International intercomparison for criticality dosimetry: the case of biological dosimetry

Roy

Buard

Delbos

et al. 2004

Radiation Protection Dosimetry

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The Institute of Radiation Protection and Nuclear Safety (IRSN) organized a biological dosimetry international intercomparison with the purpose of comparing (i) dicentrics yield produced in human lymphocytes; (ii) the gamma and neutron dose estimate according to the corresponding laboratory calibration curve. The experimental reactor SILENE was used with different configurations: bare source 4 Gy, lead shield 1 and 2 Gy and a 60Co source 2 Gy. An increasing variation of dicentric yield per cell was observed between participants when there were more damages in the samples. Doses were derived from the observed dicentric rates according to the dose-effect relationship provided by each laboratory. Differences in dicentric rate values are more important than those in the corresponding dose values. The doses obtained by the participants were found to be in agreement with the given physical dose within 20%. The evaluation of the respective gamma and neutron dose was achieved only by four laboratories, with some small variations among them.

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Twenty years of FISH-based translocation analysis for retrospective ionizing radiation biodosimetry

Grégoire

Roy

Buard

et al. 2018

International Journal of Radiation Biology

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This technique is appropriate for corroborating a former IR exposure of individuals. When the radiation dose is greater than 1 Gy, the translocations in complex exchanges must be considered. Another relevant point is the use of an appropriate background yield of translocations. The dose assessment, however, also depends on exposure to various genotoxic agents besides IR. If no evidence about the existence of radiation exposure is available, dose assessment is not useful. For this reason, report only the translocation frequency and its comparison with the background yield by age class is preferable.

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Study of the tools available in biological dosimetry to estimate the dose in cases of accidental complex overexposure to ionizing radiation: The Lilo accident

Roy¹,

Grégoire²,

Durand³

et al. 2006

International Journal of Radiation Biology

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A French View on FISH Painting as a Biodosemeter

Sorokine-Durm¹,

Durand²,

Delbos³

et al. 2000

Radiation Protection Dosimetry

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M Delbos

PCC-ring Induction in Human Lymphocytes Exposed to Gamma and Neutron Irradiation

International intercomparison for criticality dosimetry: the case of biological dosimetry

Twenty years of FISH-based translocation analysis for retrospective ionizing radiation biodosimetry

Study of the tools available in biological dosimetry to estimate the dose in cases of accidental complex overexposure to ionizing radiation: The Lilo accident

A French View on FISH Painting as a Biodosemeter

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